Semiconductor storage device

1. A semiconductor storage device, comprising: a plurality of memory cells that each comprise a variable resistance element; a plurality of first wires and a plurality of second wires, wherein each memory cell is disposed between and electrically coupled to one of the plurality of first wires and one of the plurality of second wires, and each first wire is electrically coupled to two or more memory cells and each second wire is electrically coupled to two or more memory cells; and a control circuit that controls voltages to one of the plurality of first wires and the plurality of second wires, wherein during a first period, the control circuit is configured to apply a first voltage to a selected first wire of the plurality of first wires, apply a second voltage to an unselected first wire of the plurality of first wires, apply a third voltage to an unselected second wire of the plurality of second wires, and apply a fourth voltage to a selected second wire of the plurality of second wires, during a second period after the first period, the control circuit is configured to apply a fifth voltage to the selected first wire, and apply a six voltage to the unselected first wire, the unselected second wire, and the selected second wire, during a third period after the second period, the control circuit is configured to apply a seventh voltage to the selected first wire, the unselected first wire, the unselected second wire and apply an eighth voltage to the selected second wire, wherein the second, third, fifth, and seventh voltages are larger than the first, sixth and eighth voltages and smaller than the fourth voltage, and wherein a reset operation is performed during the first period and a verify operation is performed during the third period.

2. The semiconductor storage device according to claim 1 , wherein during a fourth period between the second period and the third period, the control circuit is configured to apply a ninth voltage to the unselected first wire, the unselected second wire, and the selected second wire, and apply a tenth voltage to the selected first wire, the ninth voltage being larger than the tenth voltage.

3. The semiconductor storage device according to claim 2 , wherein the difference between the ninth voltage and the tenth voltage is smaller than the difference between the fourth voltage and the first voltage.

4. The semiconductor storage device according to claim 2 , wherein an voltage application time of the ninth voltage is shorter than that of the fourth voltage.

5. The semiconductor storage device according to claim 2 , wherein during a fifth period after the third period, the control circuit is configured to apply the ninth voltage to the selected second wire, and apply the tenth voltage to the selected first wire, the unselected first wire, and the unselected second wire.

6. The semiconductor storage device according to claim 5 , wherein the difference between the ninth voltage and the tenth voltage is smaller than the difference between the fourth voltage and the first voltage.

7. The semiconductor storage device according to claim 5 , wherein an voltage application time of the ninth voltage is shorter than that of the fourth voltage.

8. A semiconductor storage device, comprising: a plurality of memory cells that each comprise a variable resistance element; a plurality of first wires and a plurality of second wires, wherein each memory cell is disposed between and electrically coupled to one of the plurality of first wires and one of the plurality of second wires, and each first wire is electrically coupled to two or more memory cells and each second wire is electrically coupled to two or more memory cells; and a control circuit that controls voltages to one of the plurality of first wires and the plurality of second wires, wherein during a first period, the control circuit is configured to apply a first voltage to a selected first wire of the plurality of first wires, apply a second voltage to an unselected first wire of the plurality of first wires, apply a third voltage to an unselected second wire of the plurality of second wires, and apply a fourth voltage to a selected second wire of the plurality of second wires, during a second period after the first period, the control circuit is configured to apply a fifth voltage to the selected first wire, and apply a six voltage to the unselected first wire, the unselected second wire, and the selected second wire, during a third period after the second period, the control circuit is configured to apply a seventh voltage to the selected first wire, the unselected first wire, the unselected second wire and apply an eighth voltage to the selected second wire, wherein the second, third, sixth, and seventh voltages are larger than the first and eighth voltages and smaller than the fourth and fifth voltages, and wherein a reset operation is performed during the first period and a verify operation is performed during the third period.

9. The semiconductor storage device according to claim 8 , wherein during a fourth period between the second period and the third period, the control circuit is configured to apply a ninth voltage to the unselected first wire, the unselected second wire, and the selected second wire, and apply a tenth voltage to the selected first wire, the ninth voltage being larger than the tenth voltage.

10. The semiconductor storage device according to claim 9 , wherein the difference between the ninth voltage and the tenth voltage is smaller than the difference between the fourth voltage and the first voltage.

11. The semiconductor storage device according to claim 9 , wherein an voltage application time of the ninth voltage is shorter than that of the fourth voltage.

12. The semiconductor storage device according to claim 9 , wherein during a fifth period after the third period, the control circuit is configured to apply the ninth voltage to the selected second wire, and apply the tenth voltage to the selected first wire, the unselected first wire, and the unselected second wire.

13. The semiconductor storage device according to claim 12 , wherein the difference between the ninth voltage and the tenth voltage is smaller than the difference between the fourth voltage and the first voltage.

14. The semiconductor storage device according to claim 12 , wherein an voltage application time of the ninth voltage is shorter than that of the fourth voltage.

15. A semiconductor storage device, comprising: a plurality of memory cells that each comprise a variable resistance element; a plurality of first wires and a plurality of second wires, wherein each memory cell is disposed between and electrically coupled to one of the plurality of first wires and one of the plurality of second wires, and each first wire is electrically coupled to two or more memory cells and each second wire is electrically coupled to two or more memory cells; and a control circuit that controls voltages to one of the plurality of first wires and the plurality of second wires, wherein during a first period, the control circuit is configured to apply a first voltage to a selected first wire of the plurality of first wires, apply a second voltage to an unselected first wire of the plurality of first wires, apply a third voltage to an unselected second wire of the plurality of second wires, and apply a fourth voltage to a selected second wire of the plurality of second wires, during a second period after the first period, the control circuit is configured to apply a fifth voltage to the selected first wire, the unselected first wire, and the unselected second wire, and apply a six voltage to the selected second wire, during a third period after the second period, the control circuit is configured to apply a seventh voltage to the selected first wire, and apply an eighth voltage to the unselected first wire, the unselected second wire, and the selected second wire, wherein the second and third voltages are larger than the first, sixth and eighth voltages and smaller than the fourth voltage, and the fifth and seventh voltages are larger than the sixth and eighth voltages, wherein a reset operation is performed during the first period and a verify operation is performed during the third period.

16. The semiconductor storage device according to claim 15 , wherein during a fourth period between the second period and the third period, the control circuit is configured to apply a ninth voltage to the unselected first wire, the unselected second wire, and the selected second wire, and apply a tenth voltage to the selected first wire, the ninth voltage being larger than the tenth voltage.

17. The semiconductor storage device according to claim 16 , wherein the difference between the ninth voltage and the tenth voltage is smaller than the difference between the fourth voltage and the first voltage.

18. The semiconductor storage device according to claim 16 , wherein an voltage application time of the ninth voltage is shorter than that of the fourth voltage.

19. The semiconductor storage device according to claim 16 , wherein during a fifth period after the third period, the control circuit is configured to apply the ninth voltage to the selected second wire, and apply the tenth voltage to the selected first wire, the unselected first wire, and the unselected second wire.

20. The semiconductor storage device according to claim 19 , wherein the difference between the ninth voltage and the tenth voltage is smaller than the difference between the fourth voltage and the first voltage.

21. The semiconductor storage device according to claim 19 , wherein an voltage application time of the ninth voltage is shorter than that of the fourth voltage.